EP1331141A2

EP1331141A2 - Fixing method and structure of inflator, and airbag apparatus

Info

Publication number: EP1331141A2
Application number: EP03000595A
Authority: EP
Inventors: Hidetomo Oka; Kazuhiko Joujima
Original assignee: Takata Corp
Current assignee: Takata Corp
Priority date: 2002-01-28
Filing date: 2003-01-14
Publication date: 2003-07-30
Anticipated expiration: 2023-01-14
Also published as: CN1286685C; JP2003220924A; EP1331141B1; EP1331141A3; US20030141705A1; CN1435336A; DE60310621D1; US6837513B2; JP3903801B2; DE60310621T2

Abstract

In order to provide a fixing method and a structure of an inflator, in which the working efficiency in fixing the inflator is excellent not requiring fastening nuts and the number of parts is also reduced, a polygonal cylindrical inflator holder (50) is provided with clearance holes (52, 54, 56, and 58) and three press parts (62, 64, and 66). An incircle internally touching the first, second, and third press parts (62, 64, and 66) is smaller in diameter than the external periphery of an inflator (40). Therefore, the inflator (40) is pushed into the inflator holder (50) in strong friction with the press parts (62, 64, and 66), and finally the entire inflator (40) is accommodated into the inflator holder (50). After a convex portion (44) of the inflator (40) is retained into the clearance hole (56), the extended piece (70) is folded upright toward the center of the end face of the inflator holder (50).

Description

[Technical Field of the Invention]

The present invention relates to a fixing method and fixing structure of an inflator and an airbag apparatus having the inflator fixed with the structure.

[Description of the Related Art]

An airbag apparatus provided in a high-speed movable body such as an automobile comprises a folded airbag, an inflator for inflating the airbag, and a casing for accommodating the airbag and the inflator thereinto. In order to fix the inflator to the casing, the inflator may be accommodated into and fixed to an inflator holder, which is in turn fixed to the casing with bolts.

A fixing method of an inflator of such a conventional kind will be described with reference to Fig. 5.

An inflator 10 is substantially cylindrical shaped and has a bolt 12 protruding from one end face thereof. The end face is also provided with a flange 14. Although not shown, there are gas ejection openings provided on the external periphery of the inflator 10.

An inflator holder 20 comprises a substantially half-cylindrical body 22, an end plate 24 erected from one end of the body 22, a bolt through-hole 26 formed on the end plate 24, a ring 28 erected from the other end of the body 22, and stud bolts 30 projectingly arranged from the bottom of the body 22.

The inflator 10 is inserted into the inflator holder 20 passing through the ring 28, so that the bolt 12 is inserted into the bolt through-hole 26 and the flange 14 abuts the end plate 24. By fastening the bolt 12 with a nut 32, the inflator 10 is fixed to the inflator holder 20.

Although not shown, this inflator holder 20 is arranged within a casing of the airbag apparatus and fixed to the casing with the stud bolts 30, which are inserted into bolt through-holes of the casing and fastened with nuts.

[Problems to be Solved by the Invention]

In the fixing method and the structure of the inflator shown in Fig. 5, in order to fix the inflator to the inflator holder, it is required to fasten the bolt 12 with a nut 32.

It is an object of the present invention to provide a fixing method and a structure of an inflator, in which the working efficiency in fixing the inflator is excellent not requiring fastening nuts and the number of parts is also reduced. It is another object of the present invention to provide an airbag apparatus having the structure adopted thereto.

[Means for Solving the Problems]

According to the present invention, this object is achieved by a method for fixing an inflator as defined in claim 1, a fixing structure as defined in claim4 and an airbag apparatus as defined in claim 5, respectively. The dependent claims define preferred and advantageous embodiments of the invention. The method for fixing an inflator according to the present invention is a method for accommodating and fixing a substantially cylindrical inflator to an inflator holder, the method comprises the steps of arranging three of first, second, and third press parts on the internal surface of the inflator holder in advance, which are differently located in the peripheral direction of the inflator; inserting the inflator into the inflator holder from one end of the inflator holder; and pressing the inflator against the inflator holder at the first, second, and third press parts from the external periphery so as to fix the inflator thereto, wherein any of angles of nip between line segments between the inflator center and the respective press parts is less than 180°.

In such a method for fixing an inflator according to the present invention, the inflator is pressed by the three press parts arranged on the inflator holder, so that a nut and nut fastening operation are not required. The inflator fixed to the inflator holder is abutted to the inflator holder at the three parts in the peripheral direction of the inflator holder and also anyone of angles of nip between line segments between the inflator center and the respective press parts is less than 180°, so that backlashes cannot be produced in the inflator.

According to the present invention, the first, second, and third press parts may preferably be protruding from the internal surface of the inflator holder. By abutting the press parts protruding from the internal surface of the inflator holder in such a manner to the inflator so that only the three points in the peripheral direction abut the external peripheral surface of the inflator, the backlashes of the inflator can be securely prevented.

In the fixing method of an inflator according to the present invention, the inflator holder may comprise an extended piece projectingly arranged at the one end, wherein after the inflator is inserted into the inflator holder, the extended piece may preferably be bent and face one end of the inflator. By bending the extended piece in such a manner, the displacement in the longitudinal direction of the inflator can be prevented.

A fixing structure of an inflator according to the present invention comprises an assembly in which the inflator is accommodated and fixed to an inflator holder by a method according to the present invention.

The airbag apparatus according to the present invention comprises a folded airbag; an inflator for inflating the airbag; and a casing accommodating the airbag and the inflator therein, wherein the inflator is fixed into an inflator holder by the structure according to the present invention, and wherein the inflator holder is fixed to the casing of the airbag apparatus.

[Brief Description of the Drawings]

Fig. 1 is an exploded perspective view for illustrating an embodiment of the invention.

Fig. 2 is a cross-sectional view of an inflator holder along line II-II of Fig. 1.

Fig. 3 is a cross-sectional view of the inflator holder along line III-III of Fig. 2.

Fig. 4 is a cross-sectional view of an airbag apparatus of the invention.

Fig. 5 is an exploded perspective view for showing a conventional example.

[Description of the Embodiments]

Embodiments will be described below with reference to the drawings. Fig. 1 is an exploded perspective view for illustrating an embodiment; Fig. 2 is a cross-sectional view of an inflator holder along line II-II of Fig. 1; Fig. 3 is a cross-sectional view of the inflator holder along line III-III of Fig. 2; and Fig. 4 is a cross-sectional view of an airbag apparatus.

An inflator 40 is substantially cylindrical shaped and has gas ejection openings 42 provided at one end thereof (on the right side of Fig. 1). An inflator holder 50 has a cylindrical shape surrounding the external periphery of the inflator 40, and according to the embodiment, it has polygonal sections in the longitudinal and vertical directions.

The inflator holder 50 is constructed by punching and pressing a metallic plate to have a predetermined shape, which is then formed to be prism-shaped and then edges of the metallic plate, which are shown on the bottom side of Figs. 1 to 3, are spot-welded together.

The inflator holder 50 is provided with

clearance holes

52, 54, 56, and 58 formed on the surface on the topside of Figs. 1 to 3 at intervals in the longitudinal direction. On the surface of the inflator holder 50, shown on the bottom side of Figs. 1 to 3, two bolts are fixed so as to project outwardly.

In a substantially intermediate part in the longitudinal direction of the inflator holder 50, there are provided first and

second press parts

62 and 64 formed close to the top surface of the inflator holder 50 while a third press part 66 is formed on the bottom surface. These

push pieces

62, 64, and 66 protrude inside the inflator holder 50.

The first and

second press parts

62 and 64 are substantially truncated-conical projections and arranged in the vicinity of the end of the clearance hole 56. The first and

second press parts

62 and 64 oppose each other interposing the clearance hole 56 therebetween. In addition, both or either of the first and

second press parts

62 and 64 may have a convex shape identical to the third press part 66 which will be described as follows.

The third press part 66 is provided as a convex shape extending by a predetermined length in the longitudinal direction of the inflator holder 50. The length of the third press part 66 is substantially the same as the length between the clearance hole 54 and the clearance hole 58. Each of both ends of the third press part 66 in the longitudinal direction has an inclined surface 66a with the height gradually decreasing toward the internal bottom surface of the inflator holder 50. In addition, as the third press part, a plurality of projections may also be provided at intervals in the longitudinal direction of the inflator holder 50.

The edges of the

clearance holes

54 and 58 closer to the clearance hole 56 are preferably cut-in

slits

54a and 58a extending in the peripheral direction of the inflator holder 50, respectively. These facilitate the vicinities of the first and

second press parts

62 and 64 to be outward retracted when the

press parts

62 and 64 are pressed by the inflator 40 as will be described.

There are provided

extended pieces

70 and 72 formed at the respective both ends of the inflator holder 50. One extended piece 70 extends in the longitudinal direction of the inflator holder 50 and the other extended piece 72 is folded substantially upright toward the center of the end face of the inflator holder 50 before the inflator 40 is inserted.

The inflator 40 is inserted into the inflator holder 50 from the end having the extended piece 70. The leading edge of the inflator 40 reaches the end (the right edge in Fig. 2) of the third press part 66 and then, further reaches the first and

second press parts

62 and 64.

An incircle internally touching the first, second, and

third press parts

62, 64, and 66 is smaller in diameter than the external periphery of the inflator 40 as shown in Fig 3. Therefore, after the leading edge of the inflator 40 reaches the first and

second press parts

62 and 64, the inflator 40 is pushed into the inflator holder 50 pressing the

press parts

62, 64, and 66 so as to separate them from each other. The first and

second press parts

62 and 64 are located in vicinities of edges of the clearance hole 56, the rigidity thereof is smaller than that of the inflator holder in the vicinity of the third press part 66. Therefore, when the inflator 40 is pushed thereinto, vicinities of the first and

second press parts

62 and 64 are mainly retracted by a dimension t shown in Fig. 3 so that the inflator holder 50 is deformed to increase the diameter.

Then, the inflator 40 is pushed thereinto in strong friction with the

press parts

62, 64, and 66, and finally the entire inflator 40 is accommodated into the inflator holder 50 when the leading edge of the inflator 40 abuts the extended piece 72 formed at the end of the inflator holder 50. The insertion operation of the inflator 40 is completed by folding the extended piece 70 upright toward the center of the end face of the inflator holder 50.

As shown in Fig. 3, the inflator 40 is fixed inside the inflator holder 50 by pressing only the first, second, and

third press parts

62, 64, and 66 against the external periphery of the inflator 40. The inflator 40 touches the inflator holder 50 only at three points of the

press parts

62, 64, and 66, which are differently located in the peripheral direction, so that backlashes cannot be produced in the inflator 40. As shown in Fig. 3, the

press parts

62, 64, and 66 are arranged so that any of the angles of nip (only the angles of nip on the plane perpendicular to the longitudinal direction) between line segments (not shown) between the center C of the inflator 40 and the

respective press parts

62, 64, and 66 is less than 180°.

According to this fixing method of the inflator, a nut and nut fastening operation are not required, so that the parts count is small and the inflator fixing operation is easy. Also, the fixing of the inflator 40 after being inserted into the inflator holder 50 is sufficiently firm.

Fig. 4 is a sectional view of an airbag apparatus having an assembly in which the inflator 40 is held in the inflator holder 50 in such a manner.

An airbag apparatus 80 comprises a casing 82 made of a synthetic resin overall and an airbag 84 accommodated within the casing 82 by being folded. The casing 82 having the inflator 40 and the inflator holder 50 described above comprises a hook 80a for retaining a front openable lid portion and a flexible thin-walled portion (hinge portion) 80b. The inflator 40 and the inflator holder 50 are arranged within the airbag 84, and a bolt 60 penetrating the airbag 84 and the casing 82 protrudes outside the casing 82. The inflator 40, the inflator holder 50, and the airbag 84 are fixed to the casing 82 by fastening the bolt 60 with a nut.

When the inflator 40 is operated, the gas from the gas ejection openings 42 flows into the airbag 84 mainly passing through the clearance hole 52 so as to inflate the airbag 84. The hook 80a of the casing 82 is pressed and disengaged by the gas pressure in the airbag 84 so that the front surface of the casing 82 is crooked along the thin-walled portion 80b and is opened. Thereby, the airbag 84 is extended outside the casing 82 for protecting a human body.

The airbag apparatus 80 shown in Fig. 4 is suitable for a side-airbag apparatus laterally extending along an automobile seat, for example. An inflator and inflator holder assembly having the fixing structure according to the present invention may be applied to various airbag apparatuses such as those for a passenger seat, rear seat, protecting legs, and protecting a head.

The present invention is not limited to the structure shown in the drawings; however, various modifications may be adopted. For example, the inflator 40 according to the embodiment has the gas ejecting openings 42 provided on one end; alternatively, gas ejecting openings may be arranged on both ends or may be arranged along the overall length. Also, the shape of the inflator holder may obviously be other than that shown in the drawings.

[Advantages]

As described above, according to the present invention, the inflator can be easily and securely fixed to the inflator holder.

Claims

A method for accommodating and fixing a substantially cylindrical inflator (40) to an inflator holder (50) comprising the steps of:

arranging three of first, second, and third press parts 62,64,66) on the internal surface of the inflator holder (50) in advance, which are differently located in the peripheral direction of the inflator (40);

inserting the inflator (40) into the inflator holder (50) from one end of the inflator holder (50); and

pressing the inflator (40) against the inflator holder (50) at the first, second, and third press parts (62, 64, 66) from the external periphery so as to fix the inflator (40) thereto,

wherein any of angles of nip between line segments between the inflator center and the respective press parts (62, 64, 66) is less than 180°.
A method according to Claim 1, wherein the first, second, and third press parts (62, 64, 66) protrude from the internal surface of the inflator holder.
A method according to Claim 1 or 2, wherein the inflator holder (50) comprises an extended piece (70) projectingly arranged at the one end,
wherein after the inflator (40) is inserted into the inflator holder (50), the extended piece (70) is bent so as to face one end of the inflator (40).
A fixing structure of the inflator wherein the inflator (40) is accommodated in and fixed to an inflator holder (50) by a method according to any one of claims 1 to 3.
An airbag apparatus comprising:

a folded airbag (84);

an inflator (40) for inflating the airbag (84); and

a casing (82) accommodating the airbag (84) and the inflator (40) therein,

wherein the inflator (40) is fixed into an inflator holder (50) by the fixing structure according to Claim 4, and
wherein the inflator holder (50) is fixed to the casing (82).